CN112024931A

CN112024931A - Cat ladder guardrail generates equipment

Info

Publication number: CN112024931A
Application number: CN202010905275.5A
Authority: CN
Inventors: 于凤霞
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-01
Filing date: 2020-09-01
Publication date: 2020-12-04

Abstract

The invention discloses ladder stand guardrail generating equipment which comprises a base supporting system, a through hole punching system, a threaded hole punching system, a screw placing system, an assembling system, a screw screwing system, a limiting supporting system and a conveying system. The base braced system is the mounting platform of each system, the system of breaing through-hole can be played the through-hole on the pipe in the side direction, prepare for the installation with horizontal pipe, the system of breaing through-hole can be in the installation after accomplishing at horizontal side pipe and the same position of side direction side pipe and beat the screw hole, make things convenient for screw installation, it can put into the screw hole with the screw to place screw system, the equipment system can be assembled horizontal pipe and side direction pipe, it fastens the screw with the screw to twist the screw system, guarantee the use strength and the life of cat ladder guardrail, spacing braced system can hold up the work piece when twisting the screw system during operation and guarantee the stability of work piece when twisting the screw, the system of transporting control work piece gets into.

Description

Cat ladder guardrail generates equipment

Technical Field

The invention relates to the field of labor protection product production, in particular to ladder stand guardrail generating equipment.

Background

Ladder climbing guardrails are often used in the daily production process of instruments, but the manual production efficiency is low, a plurality of procedures of welding, cutting and installing are needed, the operation is extremely complicated, and various difficulties in final assembly often occur due to lack of precision after the completion. To solve such a problem, application No.: CN20160298000.9 has announced the automatic riveting production facility of ladder, reaches automated production's effect through the mode of processing the punching press again on two sides respectively, but the machine overall cost is higher, and the design is too loaded down with trivial details, is not convenient for the maintenance and the change spare part after little company uses and uses.

Disclosure of Invention

Aiming at the problems, the invention provides ladder stand guardrail generating equipment which comprises a base supporting system, a through hole punching system, a threaded hole punching system, a screw placing system, an assembling system, a screw screwing system, a limiting supporting system and a conveying system.

The base braced system for beat through-hole system, beat the screw hole system, place screw system, equipment system, twist screw system, spacing braced system, transport the mounting platform of system, beat the through-hole system and beat screw hole system and separate the top and control in base braced system same position, place the screw system and beat the right-hand installation of screw hole system on base braced system, twist the screw system and place the screw system right-hand.

The base support system comprises: lower margin, angle steel, bottom plate, dump bin, vertical channel-section steel, horizontal channel-section steel, lower margin fixed mounting in the square hole of angle steel and with ground contact, angle steel fixed mounting below the bottom plate, bottom plate fixed mounting is on the angle steel surface, dump bin fixed mounting is on the bottom plate upper surface, vertical channel-section steel has four, four angles of one end fixed mounting at the bottom plate upper surface of each, other end fixed mounting is at horizontal channel-section steel both ends, horizontal channel-section steel fixed mounting is on vertical channel-section steel.

The punching system comprises: through-hole motor back connection board, the motor punches, the cylinder back connection board, the jacking cylinder, cylinder extension hub connection piece, baffle before the motor, the through-hole drill bit, through-hole motor back connection board fixed mounting is on the back surface of the motor that punches, motor fixed mounting punches the surface of baffle before the motor, cylinder back connection board fixed mounting is on horizontal channel-section steel side, the back of jacking cylinder fixed mounting connection board behind the cylinder, cylinder extension hub connection piece fixed mounting is on through-hole motor back connection board surface, baffle fixed mounting is on the motor connection board that punches before the motor, the through-hole drill bit rotates and installs in the motor pivot that punches.

The system for drilling holes comprises: supporting seat, cylinder upper junction plate, screw hole motor back connecting plate, the series connection board, the screw hole drill bit, screw hole motor front bezel, the cylinder connecting block, supporting seat fixed mounting is at the upper surface of horizontal channel-section steel, the lower fixed surface of cylinder upper junction plate installs at the supporting seat upper surface, screw hole motor back connecting plate fixed mounting is on the rear surface that corresponds with the motor that punches, the upper surface of series connection board fixed mounting at screw hole motor back connecting plate, the screw hole drill bit forms normal running fit with the pivot of the motor that punches, screw hole motor front bezel fixed mounting is on the motor connecting plate that punches, cylinder connecting block fixed mounting is on screw hole motor back connecting plate upper surface.

The screw placing system comprises: the cylinder fixed block, the cylinder tray, the screw groove slot, the slider, a slide rail, probe slider connecting plate, the magnetic probe, the placer mounting panel, cylinder fixed block fixed mounting is on the placer mounting panel upper surface, cylinder tray fixed mounting is on horizontal channel-section steel side, the screw groove forms sliding fit with screw groove slot, screw groove slot fixed mounting is on horizontal channel-section steel upper surface, the slider forms sliding fit with the slide rail, slide rail fixed mounting is on the placer mounting panel, probe slider connecting plate fixed mounting is on the slider lower surface, magnetic probe fixed mounting is on probe slider connecting plate, placer mounting panel fixed mounting is on the slide rail upper surface.

The assembly system comprises: the device comprises an air cylinder support, a linear shaft, a linear bearing, a jacking plate, a side bracket, a small sliding rail, a pulling-in air cylinder and a middle bracket, wherein the air cylinder support is fixedly arranged on the upper surface of a bottom plate, the linear shaft and the linear bearing form sliding fit, the linear bearing is fixedly arranged on the lower surface of the jacking plate, the jacking plate is fixedly arranged on the upper surface of the linear bearing, the side bracket is fixedly arranged on the side surface of the upper surface of the jacking plate, the small sliding rail and the side bracket form sliding fit, the pulling-in air cylinder is fixedly arranged on the upper surface of the jacking plate, and the middle bracket is fixedly arranged in the middle of.

The screwing system comprises: screw system support, screw system motor connecting plate, screwdrivers blade, cylinder support connecting block twist both ends fixed mounting of screw system support on horizontal channel-section steel upper surface, twist screw system motor connecting plate fixed mounting at the punching motor back, screwdrivers blade and punching motor pivot form normal running fit, and cylinder support connecting block fixed mounting is on screwing system motor connecting plate.

The spacing braced system include: spacing cylinder supporting shoe, spacing cylinder slider, spacing cylinder slide rail, stopper, spacing cylinder supporting shoe fixed mounting is on the bottom plate upper surface, and spacing cylinder fixed mounting is in spacing cylinder supporting shoe recess, and spacing cylinder slide rail fixed mounting is in spacing cylinder side, and stopper fixed mounting is on spacing cylinder slider upper surface.

The transport system comprises: power motor, big band pulley, conveyer belt, little band pulley, conveyer belt connection rail, power motor fixed mounting forms normal running fit with the power motor pivot on the bottom plate upper surface, and the conveyer belt forms normal running fit with little band pulley, and little band pulley forms normal running fit with the conveyer belt connection rail, and conveyer belt connection rail fixed mounting is in horizontal channel-section steel inner face.

Furthermore, the cylinder extension shaft connecting block and the extension shaft of the jacking cylinder form threaded fit.

Furthermore, the jacking cylinder corresponding to the threaded hole punching system is fixedly arranged on the surface of the upper connecting plate of the cylinder.

Furthermore, the jacking cylinders corresponding to the screw placing system are two, one jacking cylinder is in threaded fit with the cylinder fixing block, and the other jacking cylinder is fixedly installed on the cylinder supporting block.

Further, the extension shaft of the drawing cylinder is fixedly arranged on the protruding part of the side bracket.

Furthermore, a middle sleeve hole of the jacking plate is in sliding fit with the jacking cylinder.

Furthermore, the back of the jacking cylinder corresponding to the screwing system is fixedly installed on the surface of the screwing system support.

Further, the conveying belt and the large belt wheel form sliding fit.

Furthermore, the magnetic probe moves in the screw slot hole to form sliding fit.

Due to the adoption of the technical scheme, the invention has the following advantages.

(1) The automatic punching machine can complete automatic punching work by using the punching system and the punching system.

(2) The invention can use the assembling system to complete the assembling work of the transverse round tube and the lateral round tube of the guardrail ladder stand.

(3) The invention can use the screwing system to finish the automatic fastening work of the screw without manpower.

(4) The invention can use the screw placing system to finish the automatic placing of the screws before the mounting.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of a via drilling system according to the present invention.

FIG. 3 is a schematic view of the present invention.

FIG. 4 is a schematic view of a screw placement system according to the present invention.

FIG. 5 is a schematic view of an assembly system of the present invention.

FIG. 6 is a schematic view of a screwing system according to the present invention.

FIG. 7 is a schematic view of a restraint support system of the present invention.

FIG. 8 is a schematic view of the conveyor system of the present invention.

Reference numerals: 1-a base support system; 2-punching a through hole system; 3-drilling a threaded hole system; 4-placing a screw system; 5-assembling the system; 6-screwing system; 7-a spacing support system; 8-a transport system; 101-ground margin; 102-angle steel; 103-a backplane; 104-a waste bin; 105-vertical channel steel; 106-transverse channel steel; 201-through hole motor rear connecting plate; 202-a punch motor; 203-cylinder rear connecting plate; 204-a jacking cylinder; 205-cylinder extension shaft connecting block; 206-motor front baffle; 207-via drill bit; 301-a support base; 302-cylinder upper connecting plate; 303-a rear connecting plate of a threaded hole motor; 304-a series plate; 305-a threaded hole drill; 306-a threaded hole motor front plate; 307-cylinder connecting block; 401-cylinder fixing block; 402-a cylinder carrier block; 403-screw groove; 404-screw slot; 405-a slider; 406-a slide rail; 407-probe slider connection plate; 408-a magnetic probe; 409-placing a device mounting plate; 501-cylinder support; 502-linear axis; 503-linear bearings; 504-a jacking plate; 505-side bracket; 506-small sliding rail; 507-drawing in a cylinder; 508-intermediate bracket; 601-screwing system bracket; 602-screwing system motor connecting plate; 603-screwdriver bit; 604-cylinder support connection block; 701-limiting a cylinder supporting block; 702-a spacing cylinder; 703-a limiting cylinder slide block; 704-limiting the cylinder slide rail; 705-a limiting block; 801-a power motor; 802-large pulley; 803-a conveyor belt; 804-small belt wheel; 805-conveyor connecting rails.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, the base support system 1 is a mounting platform for a through hole drilling system 2, a threaded hole drilling system 3, a screw placing system 4, an assembling system 5, a screw screwing system 6, a limiting support system 7, a conveying system 8, the through hole drilling system 2 and the threaded hole drilling system 3 are separately arranged above and at the same position of the base support system 1, the screw placing system 4 is mounted on the base support system 1 at the right side of the threaded hole drilling system 3, and the screw screwing system 6 is mounted at the right side of the screw placing system 4.

Specific as shown in fig. 1 is a concrete structural schematic diagram of base support system 1, wherein lower margin 101 fixed mounting is in the square hole of angle steel 102 and contacts with ground, angle steel 102 fixed mounting is below bottom plate 103, bottom plate 103 fixed mounting is on the angle steel 102 surface, dump bin 104 fixed mounting is on bottom plate 103 upper surface, vertical channel-section steel 105 has four, four angles of one end fixed mounting of each at bottom plate 103 upper surface, other end fixed mounting is at horizontal channel-section steel 106 both ends, horizontal channel-section steel 106 fixed mounting is on vertical channel-section steel 105, lower margin 101 is fixed subaerial, guarantee the holistic stability of machine.

Specifically, as shown in fig. 2, a specific structural diagram of the punching system 2 is shown, wherein the through-hole motor rear connecting plate 201 is fixedly installed on the surface of the back of the punching motor 202, the punching motor 202 is fixedly installed on the surface of the front baffle 206 of the motor, the cylinder rear connecting plate 203 is fixedly installed on the side surface of the transverse channel steel 106, the jacking cylinder 204 is fixedly installed on the back of the cylinder rear connecting plate 203, the cylinder extension shaft connecting block 205 is fixedly installed on the surface of the through-hole motor rear connecting plate 201, the front baffle 206 of the motor is fixedly installed on the connecting plate of the punching motor 202, the through-hole drill 207 is rotatably installed on the rotating shaft of the punching motor 202, the drill 207 rotates around the rotating shaft of the punching.

Specifically, as shown in fig. 3, a specific structural diagram of the system 3 for punching a threaded hole is shown, wherein the supporting seat 301 is fixedly installed on the upper surface of the transverse channel steel 106, the lower surface of the cylinder assembly connecting plate 302 is fixedly installed on the upper surface of the supporting seat 301, the threaded hole motor rear connecting plate 303 is fixedly installed on the rear surface corresponding to the punching motor 202, the series plate 304 is fixedly installed on the upper surface of the threaded hole motor rear connecting plate 303, the threaded hole drill bit 305 forms a rotating fit with the rotating shaft of the punching motor 202, the threaded hole motor front plate 306 is fixedly installed on the connecting plate of the punching motor 202, the cylinder connecting block 307 is fixedly installed on the upper surface of the threaded hole motor rear connecting plate 303, the jacking cylinder 204 drives the punching motor 202 to move from top to bottom, the rotating shaft of the punching motor 202 drives.

Specifically, as shown in fig. 4, which is a specific structural diagram of the screw placing system 4, an air cylinder fixing block 401 is fixedly installed on the upper surface of a placing device installing plate 409, an air cylinder support block 402 is fixedly installed on the side surface of the transverse channel steel 106, a screw groove 403 and a screw groove slot 404 form a sliding fit, a screw groove slot 404 is fixedly installed on the upper surface of the transverse channel steel 106, a slider 405 and a slide rail 406 form a sliding fit, a slide rail 406 is fixedly installed on the placing device installing plate 409, a probe slider connecting plate 407 is fixedly installed on the lower surface of the slider 405, a magnetic probe 408 is fixedly installed on the probe slider connecting plate 407, the placing device installing plate 409 is fixedly installed on the upper surface of the slide rail 406, when screws need to be placed, the slider 405 drives the slider connecting plate 407 and the magnetic probe 408 to reach right above the screws of the screw grooves 403, and then, and placing the screw at a specified position, and then returning to the position to finish the action of placing the screw.

Specifically, as shown in fig. 5, which is a specific structural schematic diagram of the assembly system 5, the cylinder support 501 is fixedly mounted on the upper surface of the bottom plate 103, the linear shaft 502 forms a sliding fit with the linear bearing 503, the linear bearing 503 is fixedly mounted on the lower surface of the lifting plate 504, the lifting plate 504 is fixedly mounted on the upper surface of the linear bearing 503, the side bracket 505 is fixedly mounted on the side surface of the upper surface of the lifting plate 504, the small slide rail 506 forms a sliding fit with the side bracket 505, the drawing cylinder 507 is fixedly mounted on the upper surface of the lifting plate 504, the middle bracket 508 is fixedly mounted in the middle of the upper surface of the lifting plate 504, when in use, a circular tube is placed on the side bracket 505, the punching operation is completed by the punching system 2, then the lifting cylinder 204 is lifted upwards, so that the through hole is directly opposite to the horizontal circular tube, the drawing cylinder 507 draws the circular tubes.

Specifically, as shown in fig. 6, a specific structural schematic diagram of the screwing system 6 is shown, two ends of a screwing system support 601 are fixedly mounted on the upper surface of the transverse channel steel 106, a screwing system motor connecting plate 602 is fixedly mounted on the back surface of the punching motor 202, a screwdriver head 603 and a rotating shaft of the punching motor 202 form a rotating fit, a cylinder support connecting block 604 is fixedly mounted on the screwing system motor connecting plate 602, when a workpiece reaches a designated position, the jacking cylinder 204 pushes the screwdriver head 603 and the punching motor 202 downwards, the punching motor 202 drives the screwdriver head 603 to rotate, and screws are fastened.

Specifically, as shown in fig. 7, a specific structural schematic diagram of the limiting support system 7 is shown, a limiting cylinder support block 701 is fixedly installed on the upper surface of the bottom plate 103, a limiting cylinder 702 is fixedly installed in a groove of the limiting cylinder support block 701, a limiting cylinder slide rail 704 is fixedly installed on the side surface of the limiting cylinder 702, a limiting block 705 is fixedly installed on the upper surface of the limiting cylinder slide block 703, when a screw needs to be screwed, the limiting cylinder 702 jacks up the limiting cylinder slide block 703 and drives the support block 701 to move upwards to be in fit with a workpiece, and the limiting and the stability during screwing are completed.

Specifically, as shown in fig. 8, which is a specific structural schematic diagram of the conveying system 8, the power motor 801 is fixedly installed on the upper surface of the bottom plate 103, the large belt pulley 802 forms a running fit with a rotating shaft of the power motor 801, the conveying belt 803 forms a running fit with the small belt pulley 804, the small belt pulley 804 forms a running fit with the conveying belt connecting rail 805, the conveying belt connecting rail 805 is fixedly installed on the inner surface of the transverse channel steel 106, the power motor 801 drives the large belt pulley 802 to rotate, the conveying belt 803 is moved by using friction force, and the small belt pulley 804 is used for tensioning.

When the ladder climbing ladder guardrail is automatically generated by using the invention, the power motor 801 provides power, the conveyor belt 803 is used for driving a workpiece to go through the whole production line, the conveyor belt 803 is provided with a groove, a transverse workpiece is placed on the groove according to requirements, a lateral workpiece is placed on the side bracket 505, the through hole punching system 2 punches through holes with the same diameter as the transverse workpiece on two sides of the lateral workpiece, after the completion, the assembly system 5 drags the lateral workpiece to lift upwards so that the through hole positions are aligned with the transverse workpiece, the transverse workpiece is inserted into the through holes of the lateral workpiece by using the motion of the pulling cylinder 507, the threaded hole punching system 3 punches threaded holes from top to bottom, after the completion, the whole workpiece is driven by the conveyor belt 803 to move forwards continuously to reach the position under the screw placing system 4, the magnetic probe 408 is used for sucking the screw from the screw groove 403, and the screw is placed into the punched threaded hole by the coordination of the, the workpiece continues to move forwards, when the threaded hole is opposite to the screwing system 6, the screws are fastened in sequence under the action of the jacking cylinder 204 and the punching motor 202, and the ladder stand guardrail can be used after the screwing system finishes.

Claims

1. The utility model provides a cat ladder guardrail generates equipment, includes base braced system (1), punches through-hole system (2), punches screw hole system (3), places screw system (4), equipment system (5), twists screw system (6), spacing braced system (7), conveying system (8), its characterized in that:

the base supporting system (1) is an installation platform of a through hole punching system (2), a threaded hole punching system (3), a screw placing system (4), an assembling system (5), a screw screwing system (6), a limiting supporting system (7) and a conveying system (8), the through hole punching system (2) and the threaded hole punching system (3) are separately arranged above and on the left and the right at the same position of the base supporting system (1), the screw placing system (4) is installed on the base supporting system (1) on the right of the threaded hole punching system (3), and the screw screwing system (6) is arranged on the right of the screw placing system (4);

the base support system (1) comprises: the steel plate comprises ground feet (101), angle steel (102), a bottom plate (103), a waste box (104), vertical channel steel (105) and transverse channel steel (106), wherein the ground feet (101) are fixedly installed in square holes of the angle steel (102) and are in contact with the ground, the angle steel (102) is fixedly installed below the bottom plate (103), the bottom plate (103) is fixedly installed on the surface of the angle steel (102), the waste box (104) is fixedly installed on the upper surface of the bottom plate (103), four vertical channel steel (105) are provided, one end of each vertical channel steel is fixedly installed at four corners of the upper surface of the bottom plate 103, the other end of each vertical channel steel is fixedly installed at two ends of the transverse channel steel (106), and the transverse channel steel (;

the perforating system (2) comprises: the punching machine comprises a through hole motor rear connecting plate (201), a punching motor (202), a cylinder rear connecting plate (203), a jacking cylinder (204), a cylinder extension shaft connecting block (205), a motor front baffle (206) and a through hole drill bit (207), wherein the through hole motor rear connecting plate (201) is fixedly arranged on the surface of the back surface of the punching motor (202), the punching motor (202) is fixedly arranged on the surface of the motor front baffle (206), the cylinder rear connecting plate (203) is fixedly arranged on the side surface of a transverse channel steel (106), the jacking cylinder (204) is fixedly arranged on the back surface of the cylinder rear connecting plate (203), the cylinder extension shaft connecting block (205) is fixedly arranged on the surface of the through hole motor rear connecting plate (201), the motor front baffle (206) is fixedly arranged on the punching motor (202) connecting plate, and the through hole drill bit (207) is rotatably arranged;

said system (3) of threading comprises: a supporting seat (301), a cylinder upper connecting plate (302), a threaded hole motor rear connecting plate (303), a series plate (304), a threaded hole drill bit (305), a threaded hole motor front plate (306) and a cylinder connecting block (307), the support seat (301) is fixedly arranged on the upper surface of a transverse channel steel (106), the lower surface of an upper cylinder combination connecting plate (302) is fixedly arranged on the upper surface of the support seat (301), a threaded hole motor rear connecting plate (303) is fixedly arranged on the rear surface corresponding to the punching motor (202), a series plate (304) is fixedly arranged on the upper surface of the threaded hole motor rear connecting plate (303), a threaded hole drill bit (305) is in rotating fit with a rotating shaft of the punching motor (202), a threaded hole motor front plate (306) is fixedly arranged on the connecting plate of the punching motor (202), and a cylinder connecting block (307) is fixedly arranged on the upper surface of the threaded hole motor rear connecting plate (303);

the screw placing system (4) comprises: the device comprises an air cylinder fixing block (401), an air cylinder supporting block (402), a screw groove (403), a screw groove slot (404), a sliding block (405), a sliding rail (406), a probe sliding block connecting plate (407), a magnetic probe (408) and a placing device mounting plate (409), wherein the air cylinder fixing block (401) is fixedly arranged on the upper surface of the placing device mounting plate (409), the air cylinder supporting block (402) is fixedly arranged on the side surface of a transverse channel steel (106), the screw groove (403) and the screw groove slot (404) form sliding fit, the screw groove slot (404) is fixedly arranged on the upper surface of the transverse channel steel (106), the sliding block (405) and the sliding rail (406) form sliding fit, the sliding rail (406) is fixedly arranged on the placing device mounting plate (409), the probe sliding block connecting plate (407) is fixedly arranged on the lower surface of the sliding block (405), the magnetic probe (408) is fixedly arranged, the placing device mounting plate (409) is fixedly arranged on the upper surface of the sliding rail (406);

the assembly system (5) comprises: the device comprises an air cylinder support (501), a linear shaft (502), a linear bearing (503), a jacking plate (504), a side bracket (505), a small sliding rail (506), a pulling-in air cylinder (507) and a middle bracket (508), wherein the air cylinder support (501) is fixedly arranged on the upper surface of a bottom plate (103), the linear shaft (502) and the linear bearing (503) form sliding fit, the linear bearing (503) is fixedly arranged on the lower surface of the jacking plate (504), the jacking plate (504) is fixedly arranged on the upper surface of the linear bearing (503), the side bracket (505) is fixedly arranged on the side surface of the upper surface of the jacking plate (504), the small sliding rail (506) and the side bracket (505) form sliding fit, the pulling-in air cylinder (507) is fixedly arranged on the upper surface of the jacking plate (504), and the middle bracket (508) is fixedly arranged at the middle part of the upper surface of the jacking plate (;

the screwing system (6) comprises: the drilling machine comprises a screw screwing system support (601), a screw screwing system motor connecting plate (602), a screw driver head (603) and an air cylinder support connecting block (604), wherein two ends of the screw screwing system support (601) are fixedly arranged on the upper surface of a transverse channel steel (106), the screw screwing system motor connecting plate (602) is fixedly arranged on the back surface of a punching motor (202), the screw driver head (603) and a rotating shaft of the punching motor (202) form rotating fit, and the air cylinder support connecting block (604) is fixedly arranged on the screw screwing system motor connecting plate (602);

the limiting support system (7) comprises: the device comprises a limiting cylinder supporting block (701), a limiting cylinder (702), a limiting cylinder sliding block (703), a limiting cylinder sliding rail (704) and a limiting block (705), wherein the limiting cylinder supporting block (701) is fixedly arranged on the upper surface of a bottom plate (103), the limiting cylinder (702) is fixedly arranged in a groove of the limiting cylinder supporting block (701), the limiting cylinder sliding rail (704) is fixedly arranged on the side surface of the limiting cylinder (702), and the limiting block (705) is fixedly arranged on the upper surface of the limiting cylinder sliding block (703);

the transport system (8) comprises: power motor (801), big band pulley (802), conveyer belt (803), little band pulley (804), conveyer belt connect rail (805), power motor (801) fixed mounting on bottom plate (103) upper surface, big band pulley (802) and power motor (801) pivot form normal running fit, conveyer belt (803) and little band pulley (804) form normal running fit, little band pulley (804) and conveyer belt connect rail (805) form normal running fit, conveyer belt connect rail (805) fixed mounting in horizontal channel-section steel (106) inner face.

2. A ladder climbing barrier generating device as claimed in claim 1, in which: the cylinder extension shaft connecting block (205) and the extension shaft of the jacking cylinder (204) form threaded fit.

3. A ladder climbing barrier generating device as claimed in claim 1, in which: and the jacking cylinder (204) corresponding to the threaded hole punching system (3) is fixedly arranged on the surface of the upper connecting plate (302) of the cylinder assembly.

4. A ladder climbing barrier generating device as claimed in claim 1, in which: the jacking cylinders (204) corresponding to the screw placing system (4) are two, one of the jacking cylinders is in threaded fit with the cylinder fixing block (401), and the other jacking cylinder is fixedly installed on the cylinder supporting block (402).

5. A ladder climbing barrier generating device as claimed in claim 1, in which: the extension shaft of the drawing cylinder (507) is fixedly arranged on the protruding part of the side bracket (505).

6. A ladder climbing barrier generating device as claimed in claim 1, in which: the middle sleeve hole of the jacking plate (504) is in sliding fit with the jacking cylinder (204).

7. A ladder climbing barrier generating device as claimed in claim 1, in which: the back of a jacking cylinder (204) corresponding to the screwing system (6) is fixedly arranged on the surface of the screwing system support (601).

8. A ladder climbing barrier generating device as claimed in claim 1, in which: the conveyor belt (803) is in sliding fit with the large belt wheel (802).

9. A ladder climbing barrier generating device as claimed in claim 1, in which: the magnetic probe (408) moves in the hole of the screw groove (403) to form sliding fit.